Qiuchi Zhu scite author profile

Qiuchi Zhu

4Publications

13Citation Statements Received

88Citation Statements Given

How they've been cited

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Affiliations

University of Nebraska–Lincoln, Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology

Publications

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Femtosecond-laser sharp shaping of millimeter-scale geometries with vertical sidewalls

Zhu

Fan

et al. 2021

Int. J. Extrem. Manuf.

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As femtosecond (fs) laser machining advances from micro/nanoscale to macroscale, approaches capable of machining macroscale geometries that sustain micro/nanoscale precisions are in great demand. In this research, an fs laser sharp shaping approach was developed to address two key challenges in macroscale machining (i.e. defects on edges and tapered sidewalls). The evolution of edge sharpness (edge transition width) and sidewall tapers were systematically investigated through which the dilemma of simultaneously achieving sharp edges and vertical sidewalls were addressed. Through decreasing the angle of incidence (AOI) from 0° to −5°, the edge transition width could be reduced to below 10 µm but at the cost of increased sidewall tapers. Furthermore, by analyzing lateral and vertical ablation behaviors, a parameter-compensation strategy was developed by gradually decreasing the scanning diameters along depth and using optimal laser powers to produce non-tapered sidewalls. The fs laser ablation behaviors were precisely controlled and coordinated to optimize the parameter compensations in general manufacturing applications. The AOI control together with the parameter compensation provides a versatile solution to simultaneously achieve vertical sidewalls as well as sharp edges of entrances and exits for geometries of different shapes and dimensions. Both mm-scale diameters and depths were realized with dimensional precisions below 10 µm and surface roughness below 1 µm. This research establishes a novel strategy to finely control the fs laser machining process, enabling the fs laser applications in macroscale machining with micro/nanoscale precisions.

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Gold-coated nanoripples produced by UV-Femtosecond lasers for surface enhanced Raman spectroscopy

Huang

Dong

et al. 2023

Applied Surface Science

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Mode measurement of few-mode fibers by mode-frequency mapping

et al. 2018

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Since few-mode fibers (FMFs) have great potential as the new transmission media for optical communications, the ability to distinguish different fiber modes is essential. Most of the traditional schemes do not yield phase information, or are limited by beam size and mechanical requirements. Here, a method is presented to analyze the mode distribution of FMFs. The fiber modes are mapped to different frequencies by using dynamic spatial phase masks. The complex amplitudes at these frequencies indicate the amplitudes and phases of the fiber modes. The method can extract not only the amplitude distribution, but also the phase distribution of the fiber modes, and no other assisted light is needed.

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Femtosecond Laser Polishing of Additively Manufactured Parts at Grazing Incidence

Fan

Zhu

et al. 2022

SSRN Journal

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Qiuchi Zhu

Femtosecond-laser sharp shaping of millimeter-scale geometries with vertical sidewalls

Gold-coated nanoripples produced by UV-Femtosecond lasers for surface enhanced Raman spectroscopy

Mode measurement of few-mode fibers by mode-frequency mapping

Femtosecond Laser Polishing of Additively Manufactured Parts at Grazing Incidence

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